Pomeranz-Fritsch

Poly (vinyl pyrrol idones) polymerization, 1, 271 Polyviologens synthesis, 1, 286 Pomeranz-Fritsch synthesis isoqutnolines, 2, 428 6, 218 Pongapin synthesis, 4, 710 Poranthericine, 4, 494 ( )-Porantherine synthesis, 2, 377 Porphin, 4, 386 structure, 4, 378 Porphin, mcso-aryltri-p-tolyl-synthesis, 4, 230 Porphin, mcso-tetraalkyl-synthesis, 4, 230 Porphin, mcso-tetraaryl-synthesis, 4, 230 Porphin, mcso-tetraferrocenyl-synthesis, 4, 230 Porphin, meso-tetraphenyl-synthesis, 7, 767 Porphobilinogen biosynthesis, 1, 100... 

POMERANZ - FRITSCH SCHLITTER MULLER I soquinoDna Synthesis... 

The Pomeranz-Fritsch reaction involves the preparation of isoquinolines 4 via the acid-mediated cyclisation of the appropriate aminoacetal intermediate 3. The best yields are usually obtained when the benzaldehyde portion 1 has electron-donating substituents in the 3- or 3,4- positions relative to the aldehyde. 

Of the well-known methods to prepare isoquinolines, including the Pictet-Spengler and Bischler-Napieralski cyclisation, the Pomeranz-Fritsch reaction is the only direct generally accepted method for the construction of the fully unsaturated isoquinoline ring system. 

The Bobbitt modification is the most widely used variation of the Pomeranz-Fritsch reaction. This modification involves cyclisation of benzylaminoacetal 10, usually prepared from the classical Pomeranz-Fritsch imine 9, to yield 4-hydroxy derivatives 11. The success of this method can be attributed to avoiding treatment and thus (partial) destruction of imine 10 under strongly acidic conditions. 

The Jackson modification involves cyclisation of iV-tosylated amine 12 and provides a complementary method to the classical Pomeranz-Fritsch reaction for entry into the fully unsaturated ring system 13. Amine 12 can be prepared from either the Pomeranz-Fritsch-Bobbitt imine 10 or reaction of benzylhalide 14 and the corresponding sodium anion 15. ... 

The Schlittler-Muller variation of the Pomeranz-Fritsch reaction involves reaction of diethoxyethanal 17 with benzylamine 16 to prepare the desired imine 18. Intermediate 18 is subsequently cyclised to substituted isoquinoline 19. The advantage here lies in the fact that the initial condensation can still take place between an aldehyde and an amine. 

A number of Lewis acids have been utilized in the Pomeranz-Fritsch reaction, including polyphosphoric acid and boron trifluoride-trifluoroacetic anhydride. Under the latter conditions yields were best when electron-donating groups were present in the 3- or 3, 4- position of imine 20, whereas unactivated aldehydes failed to cyclise at all. ... 

Hydroxyquinoline 28 was synthesized in excellent yield via cyclisation of the appropriate Pomeranz-Fritsch-Bobbitt imine 27. The desired amine 27 was prepared via hydride reduction of the classical Pomeranz-Fritsch imine. 

The Pomeranz-Fritsch-Bobbitt reaction has been utilized for the preparation of 4-hydroxy tetrahydroisoquinoline 31 in excellent yield. In this example 2,5-disubstituted benzaldehyde 29 has been successfully used as the reacting partner. 

The Pomeranz-Fritsch-Bobbitt cyclisation of activated amino-acetal 38 yielded the desired 4-hydroxyquinoline 39 in acceptable yield. The non-obvious regioselectivity of the cyclisation can be attributed to the overriding para-directing effect of alkoxy groups. ... 

Treatment of substituted pyrollidinone 42 with a Lewis acid, rather than simple protic acid, lead to a Pomeranz-Fritsch-Bobbitt type condensation to yield indolizinone 43 as a single diastereomer. ... 

Diazaphenanthrene 53 has been prepared via the Schlittler-Muller variation of the Pomeranz-Fritsch reaction in moderate yield. ... 

Hudson, A. Pomeranz-Fritsch Reaction In Name Reactions in Heterocyclic Chemistry, Li, J. J. Corey, E. J., Eds. Wiley Sons Hoboken, NJ, 2005, 480-486. (Review). 

Polyhalo ketones, reductive dehalogenation of, 29, 2 Pomeranz-Fritsch reaction, 6, 4 Prevost reaction, 9, 5 Pschorr synthesis, 2, 6 9, 7 Pnmmerer reaction, 40, 3 Pyrazolines, intermediates in diazoacetic ester reactions, 18, 3 Pyridininm chlorochromate, 53, 1 Pyrolysis ... 

Reticuline (38), one of the most important intermediates in the biosynthesis of opium alkaloids, has been synthesized in racemic form (Scheme 7) (78). 6-Methoxy-7-benzyloxyisoquinoline (39), prepared from O-benzylisovanillin via a modified Pomeranz-Fritsch isoquinoline synthesis, was treated with benzoyl chloride and potassium cyanide to obtain Reissert compound 40. Alkylation of the anion generated from 40 with 3-benzyloxy-4-methoxybenzyl chloride gave the corresponding 1-substituted Reissert compound 41 which was hydrolyzed in alkaline medium to 1-benzylisoquinoline derivative 42. Quatemarization of 42 with methyl iodide followed by sodium borohydride reduction and debenzylation led to ( )-reticuline (38) in about 25% overall yield from 39. 

Through a slight modification the Pomeranz-Fritsch synthesis can be made particularly useful for the preparation of 1,2-dihydroisoquinolines. The imine is first reduced with sodium borohydride in 98% ethanol to the corresponding benzylamine, prior to cyclization, by treatment with 6 M hydrochloric acid. When electron-donating groups (such as a methoxyl) are present in the aromatic unit of the benzylamine, the ring-... 

An advantage of the modified Pomeranz-Fritsch synthesis is that the 1,2-dihydroisoquinolines can be reacted in situ with electrophiles, yielding 1,4-dihydroisoquinolinium salts that react with nucleophiles at C-3 (see Section 3.3.3). Such a single pot procedure can be used to form complex 1,2,3,4-tetrahydroisoquinolines. 

A modification of the Pomeranz-Fritsch synthesis <1983JCXI3344> is used in the preparation of thieno[2,3- l-pyridine and its 2-substituted derivatives. An aryl aldehyde undergoes condensation with aminoacetaldehyde dimethyl acetal giving a Schiff base which cyclizes to form an imine product. The imine is treated with ethyl chloroformate followed by triethyl phosphate to form an intermediate carbonate-phosphonate, which then cyclizes to the thienopyr-idine product (Scheme 22) <2004S1935>. Very low product yields (2-17%) are obtained for alkyl- and phenyl-substituted thieno[2,3- ]pyridines however, the unsubstituted product and 2-halogenated derivatives give moderate yields (28-44%). 

Schlittler-Mtiller Reaction (Modification of the Pomeranz-Fritsch Reaction)... 

The first synthesis of a derivative of 2,8-phenanthroline was reported by Merz, Weidlich, and Fink13 in 1964. They prepared 5,6-dimethoxy-2,8-phenanthroline (34) (isolated as the dipicrate) in very low yield by conducting a double Pomeranz-Fritsch isoquinoline synthesis on 4,5-dimethoxyisophthalaldehyde. The parent compound was prepared 2 years later12 in 25-35% yield, along with 1,9-phenanthroline (4%), by the photocyclization of trans-1 (3-pyridyl)-2-(4-pyridyl)ethylene in benzene. This reaction was used by Hiinig and his colleagues15 to prepare an N,N -dimethyl diquaternary salt of 2,8-phenanthroline by methylating the crude product from the irradiation reaction. 

Phenanthroline was first claimed to have been synthesized by a double Pomeranz-Fritsch isoquinoline synthesis.11 It has recently been prepared12 in about 12% yield by the irradiation of trans-l,2-di(3-pyridyl)ethylene in benzene, along with 1,8-phenanthroline (12-20%) and 1,10-phenanthroline (1-2%). The melting point is quite different from that recorded earlier by Ruggli and Schetty.11 This latter method has subsequently been used15 to prepare an AT, AT -dimethyl diquaternary salt of 3,8-phenanthroline by methylating the crude product from the irradiation reaction. 

The Pomeranz-Fritsch method (boron trifluoride + trifluoroacetic anhydride) is not suitable 205 but polyphosphoric acid (PPA) at 100°... 

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